基于葫芦[8]脲的超分子荧光生物材料用于肾细胞的细胞毒性和成像研究。

Cucurbit [8] uril-based supramolecular fluorescent biomaterials for cytotoxicity and imaging studies of kidney cells.

作者信息

Xiao Han, Yang Xia, Yang Li, Yang Dan, Luo Yang, Yang Hai-Ping, Tao Zhu, Xiao Xin, Li Qiu

机构信息

Department of Nephrology, Children's Hospital of Chongqing Medical University, National Clinical Research Center for Child Health and Disorders, Ministry of Education Key Laboratory of Child Development and Disorders, Chongqing Key Laboratory of Pediatrics, Chongqing, China.

Key Laboratory of Macrocyclic and Supramolecular Chemistry of Guizhou Province, Institute of Applied Chemistry, Guizhou University, Guiyang, China.

出版信息

Front Chem. 2022 Aug 24;10:974607. doi: 10.3389/fchem.2022.974607. eCollection 2022.

DOI:10.3389/fchem.2022.974607

PMID:36092664

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9451006/

Abstract

An accurate diagnosis of acute kidney injury (AKI) at the early stage is critical to not only allow preventative treatments in time but also forecast probable medication toxicity for preventing AKI from starting and progressing to severe kidney damage and death. Therefore, supramolecular fluorescent biomaterials based on Q [8] and PEG-APTS have been prepared herein. This study has found that the unique properties of outer surface methine and the positive density of Q [8] can form a stable assembly with PEG-APTS, and has provided the possibility for the faster crossing of the glomerular filtration barrier to enter into the resident cells of the kidney. In addition to the excellent fluorescence properties, the as-synthesized biomaterial Q [8]@PEG-APTS has possessed significantly low biological toxicity. Most importantly, the accumulation of Q [8]@PEG-APTS in large amounts in cytoplasm and nucleus of HK2 and HMCs cells, respectively, within 24 h enabled distinguishing kidney cells when diagnosing and providing some foundation for early AKI.

摘要

急性肾损伤（AKI）的早期准确诊断不仅对于及时进行预防性治疗至关重要，而且对于预测可能的药物毒性以防止AKI发生并进展为严重肾损伤和死亡也很关键。因此，本文制备了基于Q [8]和PEG-APTS的超分子荧光生物材料。本研究发现，Q [8]外表面次甲基的独特性质和正电荷密度可与PEG-APTS形成稳定的组装体，并为更快穿过肾小球滤过屏障进入肾脏驻留细胞提供了可能性。除了优异的荧光性能外，合成的生物材料Q [8]@PEG-APTS还具有极低的生物毒性。最重要的是，Q [8]@PEG-APTS在24小时内分别在HK2和HMCs细胞的细胞质和细胞核中大量积累，这使得在诊断时能够区分肾细胞，并为早期AKI提供了一些依据。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8561/9451006/f6d189a6cb56/FCHEM_fchem-2022-974607_wc_sch1.jpg

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基于葫芦[8]脲的超分子荧光生物材料用于肾细胞的细胞毒性和成像研究。

Cucurbit [8] uril-based supramolecular fluorescent biomaterials for cytotoxicity and imaging studies of kidney cells.

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